Optical information recording medium and optical disk drive

1. An optical information recording medium capable of recording/reproducing information upon being irradiated with a light beam, comprising: a substrate; a light incident surface; a first information recording layer formed between said substrate and said light incident surface to transit between a crystal state and an amorphous state upon being irradiated with the light beam; and a second information recording layer formed between said substrate and said first information recording layer to transit between the crystal state and the amorphous state upon being irradiated with the light beam, wherein said first information recording layer comprises sequentially from a side of said light incident surface to a side of said substrate, a recording film, a first dielectric film whose complex index has a real part n 1 , a second dielectric film whose complex index has a real part n 2 , and a third dielectric film whose complex index has a real part n 3 , and relationships n 1 >n 2 and n 3 >n 2 are satisfied.

2. A medium according to claim 1 , wherein said medium comprises an interface film between said recording film and said first dielectric film, and a distance d from a boundary between said recording film and said interface film to a boundary between said second dielectric film and said third dielectric film is set within a range of λ/20<d<2λ (λ: a wavelength of the light beam).

3. A medium according to claim 1 , wherein a relationship n 1 /n 2 >1.4 is satisfied.

4. A medium according to claim 1 , wherein a relationship n 3 /n 2 >1.4 is satisfied.

5. A medium according to claim 1 , wherein letting a 1 be a thermal conductivity of said first dielectric film and a 2 be a thermal conductivity of said second dielectric film, a relationship a 1 <10*a 2 is satisfied.

6. An optical disk drive for irradiating an optical information recording medium with a light beam to record/reproduce information, comprising: irradiation section configured to irradiating said optical information recording medium with the light beam; and recording section configured to controlling at least one of an irradiation timing and irradiation power of the light beam by said irradiation section to record multilevel information, wherein said optical information recording medium comprises a substrate, a light incident surface, a first information recording layer formed between said substrate and said light incident surface to transit between a crystal state and an amorphous state upon being irradiated with the light beam, and a second information recording layer formed between said substrate and said first information recording layer to transit between the crystal state and the amorphous state upon being irradiated with the light beam, said first information recording layer comprises sequentially from a side of said light incident surface to a side of said substrate, a recording film, a first dielectric film whose complex index has a real part n 1 , a second dielectric film whose complex index has a real part n 2 , and a third dielectric film whose complex index has a real part n 3 , and relationships n 1 >n 2 and n 3 >n 2 are satisfied.